US39702A - Envelope-machine - Google Patents

Description

` Nrrnn STATES vlATinvr Ormea.

GEORGE H. REAY, OF NEW YORK, 4ASSIGNOR TO LOUIS NEGBAUR, OF BROOKLYN, NEW YORK.

ENVELOPE-MACHINE.

`Specification.forming part of Leiters Patent No. 39.702, dated August 25, 1.863.

To all whom it may concern:

Be it known that I, GEORGE H. REAY, of the city, county, and State of New York, have invented a new and useful Improvement in Envelope-lv/Iachines;4 and I do hereby declare that the following is a full, clear, and exact description of the same, reference being had to the accompanying drawings, forming a part of this specification, in which- Figure l represents a plan or top view of my invention. Fig. 2 is a front elevation ofthe same. Fig. 3 is a transverse vertical section of the same, the line aix, Fig. 1, indicating the plane of section Fig. 4. is a detached section of the box, which, inconjunction with the plunger, serves to crease the envelope. Fig. 5 is an inverted plan of the plunger. Fig. 6 is a detached sectional view of the plunger and folding-lingers. Fig. 7 is a detached elevation of the device for pressing the envelopes.

Similar letters of reference in the several views indicate corresponding parts.

This invention relates to a movable slide placed under the lifter or lifters in such a manner that a fresh supply of blanks can be introduced underthe lifters at any moment Whenever the lifters begin to rise, without stopping the machine; also, to a peculiar arrangement of the lifter and table which supports the gum-box and under which the blanks are conveyed to the creasingbox in such a manner that the table itself' pulls off the blanks from the lifters and retains them in a correct position for the plunger to act upon 5 further, to certain improvements in the mechanism employed to impart the desired motion to the gum-box in relation to the lifters, to

counterbalance the conveyer to crease, fold,

and press the envelopes, and to discharge them from the machine when nished.

To enable others skilled in the art to make and use my invention, I will proceed to describe it.

A represents a frame, made of iron or any other suitable material, which supports the working parts of my machine. This frame is provided with a platform, B, and on the top of this platform, and supported by small columns a, is the table C, which supports the gum-box D. The blanks, which are indicated in red outlin es in the various gures,are placed on a slide, E, which is provided with project ing lugs b, to retain the blanks in the proper position, and which can be moved in and out on the top of the platform B. When moved out,the slide is clear off the table C and in such a position that a fresh supply of blanks can be introduced without difficulty. The slide with the blanks is then pushed back under the table and in the proper position to be acted upon by the lifters F. These lifters are secured in an angular position to the cross-head F', which is secured to the upper ends of rising and falling rods F2. The lower forked ends of the rods F2 catch over a bar. f, which is supported by arms j", which are loosely attached to a shaft or rod, ft, and to which an oscillating motion is imparted by a cam, jii, on the main driving-shaft G. As the barj' rises by the action ofthe arms j" it carries up with itself the vertical rods F2 and the lifters F, and when the bar with the arms descends the lifters sink down until they strike either the gum-box or the pile of blanks on the slide E, or if both the slide and the gum-box are out of the way the lifters sink down as far as the motion of the arms j" will allow. It will thus be seen that the `lifters act upon the blanks entirely by their own gravity, and consequently they will come. down upon the blanks with the same force, no matter what the thickness or height of the pile ofblanks upon the slideE. The gum-box D is placed. loosely upon the table O, and it is provided with two gudgeons, d', which extend into slotted arms d2. These arms are rigidly connected to a rockshaft, dit, which has its bearings in hangers d* under the platform B, and to which an oscillating motion is imparted from the main driving-shaft by the `action of a cam di* on arisin and fallinfr 7 7 b rod, d, which connects with an arm, d4, extend-ing from the rock-shaft. A spiral spring, d5, Wound round said rock-shaft, has a tendency to carry the gum-box back to its original position as soon as the action of the cam d2* on the rod cl3 ceases. The cam d2* is so shaped that the gumbox is carried forward just when the liftersv have reached their highest point, and it is retained under the lifters until the latter come down, take up some gum, and rise again to let the gumboX go back. The lifters thus charged with gum descend, and by being pressed upon the blanks carry one Aof them up and hold it close under the ta! ble C, ready to be taken off by the couveyer H. The litters are slotted and they pass down through slots in the table, which leave a bar, et, to work up and down in the slots of thelifters. It' a blank is carried up bythe lifters it strikes the lower surface of the table and it is readily detached from the lii'ters and deposited on the conveyer. The bar cit in the slots of the table materially assists in detaching the blank and prevents the same becoming wrinkled and uneven. The conveyer is pro vided with hooks It, which catch over the edge ofthe bla'nk and carry thel same in as the conveyer is moved across the platform B. Small weights c2, which are hinged to the front edge of the table C, bear down upon the ends of each blank as the same is raised by the lifters, and hold the same in such a position that it will be caught by the hooks of the conveyer, whether the paper be even or warped. Without these weights, and if the blank is warped, the hooks, or one of the hooks of the conveyer, are liable to slip under the blank without catching' over its edge, and the paper is wasted.

rIhe conveyer consists of a square frame, which moves backward and forward in slides h', that are rigidly attached to the platform B by means of standards or brackets ht. Motion is imparted to it by the action of an arm, h'if, which rises from the rock-shaft f. The rock-shaft receives its motion by an arm, h2, which extends from the same over a cam, h3, on the main driving-shaft, and which is held in contact with said cam by aspring, kzit, applied under the platform B. The arm IL* connects with the conveyer H by a link, hilft, and this link is provided with a balance-weight, hw, which serves to counteract the weight of the conveyer as the same reaches its extreme position, and prevents the same from assuming a vibrating motion when the machine is worked rapidly. By the action of the conveyer the blank is moved forward over the creasing-box I and under the plunger J, and in order to keep said blank in the proper position while laying on the box and before the plunger has come down upon it, two arms, ctt, extend from the table O to such a distance toward the rear that their ends are in line, or nearly so, with the rear side of the box.

The creasing-box I consists of an oblong square frame, open at top and bottom so as to form two creasing-edges, z' it, one at the top and the other at the bottom. The sides ofthe box are cut open to give access to the foldingfingers K. The blank which has been brought over the box I by the conveyer H is carried down by the plunger J, which is secured to a rod, j, suspended from a cross-head, jt, and which is carried up by the action of a cam, j, on the central stem or rod, jg. The crosshead with the plunger descends by its own inherent gravity. On bein g carried through the box I the blank is creased and it is carried down by the plunger a little below the lower .envelope down to their iinal position.

creasingedge,when the plunger ascends again, ready for a new move. In the meantime the bed L moves up from below to support the envelope and the folding-fingers turn in one after the other so as to carry the flaps of the The plunger J carries down a second blank, the fingers K are drawn back, and the envelope lying on the bed is pressed by the descending plunger. The bed L recedes, the finished envelope drops down, and the second blank, which had been carried down by the plunger, remains in the lower creasing-edge, while the plunt er recedes for a new move. From this description it will be seen the plunger does not make any unnecessary motions. On each descent it creases a blank, and at the same time the finished envelope receives its final pressing before it is pushed out below.

The pressing of the'iinished envelopes is effected by a crank, M, which carries a cam, m, that acts upon a stud or roller, mit, secured to the central stem, jz, which carries the crosshead and plunger. (See Fig. 7.) rIhe cam m is adjustable in a slot in the crank, so that it can be made to act on the roller mt with more or less power, according to the desired pressure. The bed L is secured to a rod, l, which is raised up by the action of a cam, Zit, on the main driving-shaft, and the folding-fingers K are also moved by the action of cams 7c on the main driving-shaft. The cams 7s are made to act on rods kit, the upper ends of which form toothed racks to gear in pinions k on rockshafts 7a2, to which the iin gers are secured. Spiral springs secured to these shafts hold the rods kit downl upon or in contact with the cams k. The ngers K are provided with hinge-joints k3, whereby they are enabled to accommodate themselves more readily to their work and to be withdrawn from between the plunger J and bed L without causing any part to bind or to become injured. It must be remarked that these fingers are not intended to crease the blanks before folding, nor to press the aps after they have been folded. Their function is simply to turn the flaps of the cnvelopes down after they have been creased by the action of the plunger and creasing-box, and to hold them in that position until the plunger descends again and gives to the envelope the final pressing.

In' order to give to the envelopes the proper finish, and to press them on those parts where it is particularly needed, the edge of the plunger is raised all round on its face, and it is provided with two ribs or ledges,j4, (see Fig. 5,) which are of equal height to the outside edge, and which are so situated that they press that portion of the envelopes to which the paste has been applied. There are three thicknesses of paper on that place where the envelope is pasted and only two on the edges consequently the paste is pressed more than the edge, and the edge is left round and full, as desired.

A I have now described the construction and operation of one half of my machine. The other half is precisely the same, and both plungers are attached tothe same crossheads, so that for each revolution of the main drivin gshaft two envelopes are nished.

What I claim as new, and desire to securey by Letters Patent, is-

l. The employment of the slide E, in cornhination with the rising and fallin g lifters F, constructed and operatin g in the manner and for the purpose substantially as herein specilied.

2. The arrangement of the table C over the conveyer H, substantially in the manner herein described, so that the blanks are held even and in place by the table while being carried 4by the conveyer to the creasing-box.

in the manner and for the purpose herein specified.

7. Arrangingthe iin gers K in such relation to the plunger J that they hold the aps of the envelope, which have been creased by being passed through the box I, until the plunger descends again and completes the envelope by pressing, as set forth.

8. The arrangement of hingejoints la in the shanks ofthe folding-lingers K, in the manner and for the purpose substantially as described.

9. The cam m and roller ont, or its equivalent, in combination with the plunger J, constructed and voperating substantially as and for the purpose specified.

10. Passing the plunger J below the lower creasi 11g-edge, it, of the box I, in the manner specified, so as to push the nished envelope clear off the box and leaving the creased envelope below the lower edge of the box to prevent the same from going back with the plunger.

1l. The ribs or ledges j on the face of the plunger, as and lfor the purpose described.

GEO. H. REAY.

- Witnesses Ron. H. LoUDER, G. W. REED.

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